“Live” (stained) benthic foraminiferal living depths, stable isotopes, and taxonomy offshore South Georgia, Southern Ocean: implications for calcification depths

IF 4.1 3区 地球科学 Q1 PALEONTOLOGY Journal of Micropalaeontology Pub Date : 2018-01-05 DOI:10.5194/JM-37-25-2018
Rowan Dejardin, S. Kender, C. Allen, M. Leng, G. Swann, V. Peck
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引用次数: 6

Abstract

Abstract. It is widely held that benthic foraminifera exhibit species-specific calcification depth preferences, with their tests recording sediment pore water chemistry at that depth (i.e. stable isotope and trace metal compositions). This assumed depth-habitat-specific pore water chemistry relationship has been used to reconstruct various palaeoenvironmental parameters, such as bottom water oxygenation. However, many deep-water foraminiferal studies show wide intra-species variation in sediment living depth but relatively narrow intra-species variation in stable isotope composition. To investigate this depth-habitat–stable-isotope relationship on the shelf, we analysed depth distribution and stable isotopes of living (Rose Bengal stained) benthic foraminifera from two box cores collected on the South Georgia shelf (ranging from 250 to 300 m water depth). We provide a comprehensive taxonomic analysis of the benthic fauna, comprising 79 taxonomic groupings. The fauna shows close affinities with shelf assemblages from around Antarctica. We find live specimens of a number of calcareous species from a range of depths in the sediment column. Stable isotope ratios (δ13C and δ18O) were measured on stained specimens of three species, Astrononion echolsi, Cassidulinoides porrectus, and Buccella sp. 1, at 1 cm depth intervals within the downcore sediment sequences. In agreement with studies in deep-water settings, we find no significant intra-species variability in either δ13Cforam or δ18Oforam with sediment living depth on the South Georgia shelf. Our findings add to the growing evidence that infaunal benthic foraminiferal species calcify at a fixed depth. Given the wide range of depths at which we find living , infaunal species, we speculate that they may actually calcify predominantly at the sediment–seawater interface, where carbonate ion concentration and organic carbon availability is at a maximum.
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“活的”(染色的)底栖有孔虫生活深度,稳定同位素,以及南大洋南乔治亚近海的分类:钙化深度的含义
摘要人们普遍认为,底栖有孔虫表现出物种特有的钙化深度偏好,它们的测试记录了该深度的沉积物孔隙水化学(即稳定同位素和微量金属成分)。这种假设的孔隙水化学关系已被用于重建各种古环境参数,如底水氧合。然而,许多深水有孔虫研究表明,沉积物生活深度的种内变化很大,而稳定同位素组成的种内变化相对较小。为了研究陆架上的这种深度-栖息地-稳定同位素关系,我们分析了在南乔治亚陆架(250 - 300 m水深)采集的两个箱形岩心中生活的底栖有孔虫(玫瑰红染色)的深度分布和稳定同位素。我们提供了一个全面的底栖动物的分类分析,包括79个分类群。动物群显示出与南极洲周围陆架组合的密切关系。我们在沉积物柱的不同深度发现了许多钙质物种的活标本。在岩心下部沉积物序列中,对Astrononion echolsi、Cassidulinoides porrectus和Buccella sp. 13种染色标本进行了1 cm深度的δ13C和δ18O稳定同位素比值测定。与深水环境的研究一致,我们发现南乔治亚陆架δ13Cforam和δ18Oforam的种内变化与沉积物生活深度无关。我们的发现增加了越来越多的证据,表明动物底栖有孔虫物种在固定深度钙化。考虑到我们发现的水生生物的深度范围很广,我们推测它们实际上可能主要在沉积物-海水界面钙化,那里的碳酸盐离子浓度和有机碳可用性最高。
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来源期刊
Journal of Micropalaeontology
Journal of Micropalaeontology 生物-古生物学
CiteScore
4.30
自引率
5.00%
发文量
7
审稿时长
>12 weeks
期刊介绍: The Journal of Micropalaeontology (JM) is an established international journal covering all aspects of microfossils and their application to both applied studies and basic research. In particular we welcome submissions relating to microfossils and their application to palaeoceanography, palaeoclimatology, palaeobiology, evolution, taxonomy, environmental change and molecular phylogeny.
期刊最新文献
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